Spine board with interior channels

ABSTRACT

A mechanism for securing a cervical collar to a spine board includes a collar stabilization key having a leading end and a trailing end. The collar stabilization key is inserted into a longitudinal channel located within a main body of the spine board and has a first end that intersects with a first end of the main body and a second end. The leading end of the collar stabilization key mates with a post coupled to a cervical collar so as to secure the cervical collar to the main body of the spine board and the trailing end of the collar stabilization key locks the collar stabilization key in the longitudinal channel and to the main body.

CROSS REFERENCE TO RELATED APPLICATION

The present application is a continuation-in-part of and claims priority to U.S. patent application Se. No. 14/792,981, filed Jul. 7, 2015, which is based on and claims the benefit of U.S. provisional patent application Ser. No. 62/022,308, filed Jul. 9, 2014, the content of which is hereby incorporated by reference in their entireties.

BACKGROUND

Spine boards are patient handling devices that provide rigid support to prevent further injury of a patient while the patient is being transported to a medical center for treatment. They are commonly used by medical personnel during emergency and rescue situations so as to provide increased efficiency and effectiveness in performing the vital tasks required.

The discussion above is merely provided for general background information and is not intended to be used as an aid in determining the scope of the claimed subject matter.

SUMMARY

A mechanism for securing a cervical collar to a spine board is described. A collar stabilization key has a leading end and a trailing end. The collar stabilization key is inserted into a longitudinal channel located within a main body of the spine board and has a first end that intersects with a first end of the main body and a second end. The leading end of the collar stabilization key mates with a post coupled to a cervical collar so as to secure the cervical collar to the main body of the spine board and the trailing end of the collar stabilization key locks the collar stabilization key in the longitudinal channel and to the main body.

A spine board includes a main body having a top surface and an opposing bottom surface, a first end and an opposing second end that define a length of the main body and a first longitudinal side and an opposing second longitudinal side that define a width of the main body. The first and second longitudinal sides connect the first end to the second end. A longitudinal channel extends longitudinally within the main body having a first end that intersects with the first end of the main body and a second end. An opening extends at least from the top surface of the main body and intersects with the longitudinal channel. A cervical collar has a post that extends outwardly from a bottom of the cervical collar. The post of the cervical collar is removably positioned in the opening. A longitudinal cartridge is removably secured in the channel and is configured to capture and secure the post of the cervical collar to the main body of the spine board.

A method of securing a cervical collar to a spine board includes inserting a collar stabilization key having a leading end and a trailing end into a longitudinal channel located within a main body of the spine board. The longitudinal channel has a first end that intersects with a first end of the main body and a second end. The leading end of the collar stabilization key mates with a post coupled to a cervical collar. The collar stabilization key locks in the longitudinal channel and to the main body to secure the cervical collar to the main body of the spine board.

This Summary is provided to introduce a selection of concepts in a simplified form that are further described below in the Detailed Description. This Summary is not intended to identify key features or essential features of the claimed subject matter, nor is it intended to be used as an aid in determining the scope of the claimed subject matter. The claimed subject matter is not limited to implementations that solve any or all disadvantages noted in the background.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a perspective view illustrating a spine board and a cervical collar mounted to the spine board according to one embodiment.

FIG. 2 is a top view of FIG. 1.

FIG. 3 is a bottom view of FIG. 1.

FIG. 4 is a right side view of FIG. 1.

FIG. 5 is a left side view of FIG. 1.

FIG. 6 is a back view of FIG. 1.

FIG. 7 is a front view of FIG. 1.

FIG. 8 is the perspective view illustrated in FIG. 1 with the spine board shown in phantom to illustrate internal components.

FIG. 9 is a perspective view of an exemplary longitudinal cartridge that is to be located in an exemplary longitudinal channel in the spine board according to one embodiment.

FIG. 10 is a perspective section view of the exemplary longitudinal cartridge in FIG. 9 taken through the line indicated in FIG. 9 and illustrating a strap housed by the exemplary longitudinal cartridge according to one embodiment.

FIG. 11 is a partial perspective view of a section of the spine board illustrating the insertion of and placement of longitudinal cartridges in the main body of the spine board.

FIG. 12 is a perspective view of an exemplary lateral cartridge that is to be located in an exemplary lateral channel in the spine board according to one embodiment.

FIG. 13 is an enlarged view of the trailing end of the exemplary lateral cartridge illustrated in FIG. 12.

FIG. 14 is a partial perspective view of a section of the spine board illustrating the placement of the exemplary lateral cartridge in the main body of the spine board.

FIG. 15 is a perspective view of a cervical collar according to one embodiment.

FIG. 16 is a perspective view of a collar stabilization key for securing the cervical collar of FIG. 15 to the spine board according to one embodiment.

FIG. 17 is a partial perspective view of a section of the spine board illustrating the insertion of and placement of the collar stabilization key in the spine board.

FIG. 18 is a perspective view illustrating a spine board and a cervical collar mounted to the spine board according to another embodiment.

FIG. 19 is another perspective view showing the spine board and the cervical collar illustrated in FIG. 18.

FIG. 20 is a top view of FIGS. 18 and 19.

FIG. 21 is a bottom view of FIGS. 18 and 19.

FIG. 22 is a right side view of FIGS. 18 and 19.

FIG. 23 is a left side view of FIGS. 18 and 19.

FIG. 24 is a back end view of FIGS. 18 and 19.

FIG. 25 is a front end view of FIGS. 18 and 19.

FIG. 26 is a perspective view of a comfort pad that is to be mounted to the spine board illustrated in FIGS. 18-25 according to one embodiment.

FIG. 27 is a top view of FIG. 26.

FIG. 28 is a side view of FIG. 26.

FIG. 29 is an end view of FIG. 26.

FIG. 30 is the perspective view illustrated in FIG. 18 with the spine board shown in phantom to illustrate other components.

FIG. 31 is a sectional perspective view of an exemplary cartridge.

FIG. 32 is a section perspective view of another exemplary cartridge.

FIG. 33 is a top perspective view of a cervical collar according to another embodiment.

FIG. 34 is a bottom perspective view of the cervical collar of FIG. 33.

FIG. 35 is a side view of the cervical collar of FIG. 33.

FIG. 36 is an end view of the cervical collar of FIG. 33.

FIG. 37 is a top perspective view of a collar stabilization key for securing the cervical collar of FIG. 33 to the spine board according to another embodiment.

FIG. 38 is a bottom perspective view of FIG. 37.

FIG. 39 is a top perspective view of the collar stabilization key of FIG. 37 engaged with the cervical collar of FIG. 33.

FIG. 40 is a bottom perspective view of FIG. 37.

FIG. 41 is a partial perspective view of a section of the spine board of FIGS. 18 and 19 illustrating the insertion of and placement of the collar stabilization key of FIG. 37 in the spine board to secure the cervical collar of FIG. 33.

DETAILED DESCRIPTION

The following embodiments describe a support article or spine board that provides increased efficiency and effectiveness in performing the vital tasks required by medical personnel in treating patients who have sustained physical injury. The support article or spine board includes an adjustable brace or cervical collar that can be fitted around the patient's neck before being positioned and locked into the board and preloaded straps in cartridges located in channels within the main body of the board. Together these components provide medical personnel with the ability to secure and constrain patients during transport so as to prevent further injury as well as provide medical personnel with the ability to apply preventative treatments immediately so as to limit the severity of injury.

FIG. 1 is a perspective view of a support article or spine board 100. FIGS. 2-7 are a top view, a bottom view, a right side view, a left side view, a back view and a front view of spine board 100. Board 100 includes and contains multiple features that are required to treat patients at the scene of an emergency by first responders and allows for the most efficient use of those features to drastically reduce the amount of critical time needed to prepare the injured person for transport to a medical facility. Board 100 and its multiple features is easily cleaned, has intuitive use, limited parts and is equipped with replaceable components.

Spine board 100 includes a main body 101 having a top surface 102, an opposing bottom surface 104, a first end 106, an opposing second end 108, a first longitudinal side 110 and an opposing second longitudinal side 112. The distance between top surface 102 and bottom surface 104 defines a thickness 127 (FIG. 6) of main body 101. The distance between first end 106 and second end 108 defines a length 123 (FIG. 2) of main body 101. The distance between first longitudinal side 110 and second longitudinal side 112 defines a width 125 (FIG. 6) of main body 101. First and second longitudinal sides 110 and 112 connect first and second ends 106 and 108. In one embodiment, spine board 100 is made of a light-weight synthetic material, durable enough to withstand years of use by medical personnel.

Spine board 100 includes an adjustable brace or cervical collar 114 mounted to main body 101 that protrudes from top surface 102, a plurality of grasping handles 116 a-n and an ice tray 118. Cervical collar 114 is fitted around a patient's neck and then fixed to board 100 prior to patient transport to prevent as much movement of the spine as possible. A collar stabilization key 136 (FIGS. 2-3 and 6) is located internal to main body 101 of board 100 and is used to hold the cervical collar 114 in place and prevent motion of the head and neck in multiple directions. Cervical collar 114 and collar stabilization key 136 will be discussed in more detail below.

Handles 116 a-n are spaced apart from each other and are placed in locations adjacent to and along first longitudinal side 110 and second longitudinal side 112 to allow medical personnel to carry spine board 100. Along the mid-section of main body 101 of board 100 is ice tray 118 that is recessed from top surface 102 of main body 101 and, in one embodiment, is configured to receive ready-to-use chemically activated cold packs 120, which can be activated if the patient requires such treatment along the back. These can be utilized at the discretion of the emergency responder if the patient requires such treatment for their injuries. Recessed ice tray 118 holds the cold packs 120 in place. In one embodiment, the top surfaces of cold packs 120 may protrude from top surface 102 of main body 101 and, in another embodiment, can be held in place with hook and loop material.

Also incorporated into the board are a plurality of channels and a plurality of cartridges that are inserted in the channels and contain straps. The channels exist within main body 101 and are located interior to the outer surfaces of board 100 including between top surface 102 and bottom surface 104 and between first end 106 and second end 108 and between first longitudinal side 110 and second longitudinal side 112. The channels provide openings to receive the cartridges, which contain the straps that secure the patient to the board. The cartridges are single use units that are loaded and stored within the board and provide easy access to the straps when needed for treatment of the patient.

In one embodiment, there are two different types of channels that exist within main body 101 of board 100. First, a pair of longitudinal channels 122 a-b (FIG. 6 and better shown in FIG. 8) that extend longitudinally along a portion of length 123 of spine board 100 (i.e., along either side of cervical collar 114) from first end 106 to second ends 144 a and 144 b (FIGS. 1 and 2). Second, a plurality of lateral channels 124 a-d (FIGS. 4 and 5) that extend laterally through width 125 of main body 101 from first longitudinal side 110 to second longitudinal side 112.

FIG. 8 is the perspective view of spine board 100 in FIG. 1 with main body 101 shown in phantom to illustrate internal components. Longitudinal channels 122 a and 122 b are located inside main body 101 between top surface 102 and bottom surface 104 and have open second ends or exit ends 144 a and 144 b, respectively, and open first ends or insertion ends 146 a and 146 b (FIG. 6), respectively. Open first ends 146 a and 146 b intersect with first end 106 of main body 101 and serve as the insertion openings into channels 122 a-b for cartridges 129 a and 129 b. Open second ends 144 a and 144 b intersect with top surface 102 of main body 100 and serve as exit ends for straps stored in cartridges 129 a and 129 b. First longitudinal channel 122 a and second longitudinal channel 122 b are spaced apart from first and second longitudinal sides 110 and 112 of main body 101 and from each other. First longitudinal channel 122 a is located in closer proximity to first longitudinal side 110 than second longitudinal side 112. Second longitudinal channel 122 b is located in closer proximity to second longitudinal side 112 than first longitudinal side 110. Longitudinal channels 122 a and 122 b extend for a length from first end 106 of main body 101 to open second ends 144 a and 144 b, which are in an area proximal to where cervical collar 114 is attached to main body 101.

Lateral channels 124 a, 124 b, 124 c and 124 d are oriented substantially perpendicular to longitudinal channels 122 a-b, but do not intersect longitudinal channels 122 a-b since they are spaced away from longitudinal channels 122 a-b. Lateral channels 124 a-d are also located inside main body 101 between and spaced apart from top surface 102 and bottom surface 104, have a length that is a width of main body 101, are spaced apart from each other along length 123 of main body 101 and have open first ends 126 a, 126 b, 126 c and 126 d that intersect with first longitudinal side 110 and open second ends 128 a, 128 b, 128 c and 128 d that intersect with second longitudinal side 112. Both open first ends 126 a-d and open second ends 128 a-d serve as exit ends for straps stored in cartridges 134 a-d.

As illustrated and as previously discussed, longitudinal channels 122 a-b and lateral channels 124 a-d that exist within main body 101 of spine board 100 house and store removable cartridges that contain straps. Longitudinal channels 122 a-b receive and house first and second longitudinal cartridges 129 a and 129 b having leading ends 137 a and 137 b and trailing ends 141 a and 141 b, respectively. Lateral channels 124 a-d receive and house lateral cartridges 134 a, 134 b, 134 c and 134 d having leading ends 171 a-d and trailing ends 173 a-d, respectively. Each cartridge 129 a-b and 134 a-d contain and store a strap used to secure the patient to main body 101 of board 100. The straps are made with hook and loop material for securing via attachment onto themselves.

FIG. 9 is a perspective view of exemplary longitudinal cartridge 129 b that is to be removably inserted in exemplary longitudinal channel 122 b according to one embodiment. FIG. 10 is a perspective section view of exemplary longitudinal cartridge 129 b taken through the line indicated in FIG. 9 to show strap 130 b housed and stored in exemplary cartridge 129 b according to one embodiment. Exemplary longitudinal cartridge 129 b is substantially identical to longitudinal cartridge 129 a, which is located in longitudinal channel 122 a, so features described with respect to cartridge 129 b should be applied to cartridge 129 a.

As previously discussed, longitudinal cartridge 129 b includes a leading end 137 b and a trailing end 141 b. When placed in longitudinal channel 122 b, leading end 137 b is located at open second end 144 b and trailing end 141 b is located at open second end 146 b. Trailing end 141 b includes flanges 180 b, 181 b and 182 b (substantially identical to flange 181 b) and a pair of substantially identical spring or barbed clips 183 b and 184 b. Flanges 180 b, 181 b and 182 b and spring clips 183 b and 184 b engage with recesses in main body 101 for locking longitudinal cartridge 129 b into channel 122 b of main body 101. Longitudinal cartridge 129 b further includes a top wall 170 b, a bottom wall 172 b, a first side wall 174 b and a second side wall 175 b. Together, top wall 170 b, bottom wall 172 b, first side wall 174 b and second side wall 175 b define a compartment 176 b for containing and storing strap 130 b. Compartment 176 b is also defined between a trailing end wall 177 b located proximal to trailing end 141 b of longitudinal cartridge 129 b and an opening 178 b in leading end 137 b of longitudinal cartridge 129 b. Opening 178 b provides access to strap 130 b and aligns with second end 144 b of channel 122 b in main body 101 of board 100.

As illustrated in FIG. 10, strap 130 b is stored in cartridge 129 b in a single serpentine arrangement of hook and loop strap material (i.e., strap 130 b is folded over and onto itself) and is secured to bottom wall 172 b of compartment 176 b at a first end 186 b of strap 130 b with at least one fastener 185 b, such as one more rivets. Second end 187 b of strap 130 includes a finger hook 188 b. Finger hook 188 b is secured to the interior facing walls 174 b and 175 b of compartment 176 b with ribs 189 b so as to prevent accidental or premature removal of strap 130 b from cartridge 129 b. However, other ways of securing finger hook 188 b to interior facing walls 174 b and 175 b are possible.

FIG. 11 is a partial perspective view of a section of spine board 100 illustrating the removable insertion of and placement of longitudinal cartridges 129 a and 129 b in main body 101 of spine board 100. As illustrated by longitudinal cartridge 129 a, the leading ends 137 a and 137 b of the longitudinal cartridges 129 a and 129 b are inserted into channels 122 a and 122 b, respectively, at first end 106 of main body 101 and are slid along the lengths of channels 122 a and 122 b in the direction illustrated by the exemplary directional arrows until leading ends 137 a and 137 b reach second ends 144 a and 144 b of channels 122 a and 122 b. Second ends 144 a and 144 b of channels 122 a and 122 b are strap access cavities 144 a and 144 b, which are open to and communicate with top surface 102 of main body 101. As longitudinal cartridges 129 a and 129 b reach their full insertion position, the spring or barbed clips on trailing ends 141 a-b will become compressed and as insertion is completed the spring or barbed clips will click into position, thereby indexing with main body 101 and holding cartridges 129 a-b in place. The spring or barbed clips prevent the longitudinal cartridges 129 a and 129 b from being removed accidentally and additionally keep the longitudinal cartridges 129 a and 129 b in position as straps are removed for use on the patient.

The straps contained and stored in longitudinal cartridges 129 a and 129 b, such as a first longitudinal strap stored in first longitudinal cartridge 129 a and a second longitudinal strap stored in second longitudinal cartridge 129 b, are pulled from leading ends 137 a and 137 b and through strap access cavities 144 a and 144 b using the fingers hooks on the second ends of the straps, such as finger hook 188 b of strap 130 b. After the first longitudinal strap in longitudinal cartridge 129 a is pulled out of cartridge 129 a it is brought over a left shoulder of a patient and secured as described in detail below. After second longitudinal strap 130 b in longitudinal cartridge 129 b is pulled out of cartridge 129 b it is brought over a right shoulder of the patient and secured as described in detail below. Therefore, the longitudinal straps stored in longitudinal cartridges 129 a and 129 b are used to secure the chest area of a patient by forming a cross shape across their chest after each strap is pulled out of each longitudinal cartridge 129 a-b at exit ends 144 a and 144 b or strap access cavities 144 a and 144 b. In the alternative, the longitudinal straps do not necessarily have to cross the chest of the patient and can separately secure the right and left side of a patient's torso to the spine board. As illustrated and previously discussed, exit ends or strap access cavities 144 a and 144 b of longitudinal channels 122 a and 122 b are located in an area proximal cervical collar 114. The securing of the patient using the longitudinal straps will be discussed in more detail below.

FIG. 12 is a perspective view of exemplary lateral cartridge 134 a that is to be removably inserted in exemplary lateral channel 124 a according to one embodiment. FIG. 13 illustrates an enlarged view of trailing end 173 a of lateral cartridge 134 a in FIG. 12. Exemplary lateral cartridge 134 a is substantially identical to lateral cartridges 134 b and 134 c (FIG. 2) and is similar to lateral cartridge 134 d (FIG. 2) in that the structure is substantially identical, but lateral cartridge 134 d is shorter than lateral cartridges 134 a-c because lateral channel 124 d is shorter than lateral channels 124 a, 124 b and 124 c. Still further, each hook and loop strap located in each lateral cartridge 134 a-c are substantially identical, however, the hook and loop strap located in lateral cartridge 134 d is shorter than the straps in lateral cartridges 134 a-c. Therefore, features described with respect to cartridge 134 a should also be applied to cartridges 134 b-d.

As previously discussed, each lateral cartridge 134 a-d includes leading end 171 a-d and trailing end 173 a-d. When placed in lateral channels 124 a-d, leading end 171 a-d are located at open first ends 126 a-d and trailing ends 173 a-d are located open second ends 128 a-d. Each trailing end 173 a-d includes flanges and a pair of substantially identical spring clips that engage with recesses in main body 101. As illustrated by the exemplary lateral cartridge 134 a in FIGS. 12 and 13, trailing end 173 a of lateral cartridge 134 a includes flanges 280 a, 281 a and 282 a (which is substantially identical to flange 281 a) and pair of substantially identical spring clips 283 a and 284 a. Flanges 280 a, 281 a and 282 a and spring clips 283 a and 284 a engage with recesses in main body 101 for locking lateral cartridge 134 a into channel 124 a of main body 101.

FIG. 14 is a partial perspective view of a section of main body 101 of spine board 100 taken through the line indicated in FIG. 1 and illustrating the exemplary placement of exemplary lateral cartridge 134 a in main body 101 of spine board 100. Each lateral cartridge 134 a-d further includes a compartment for containing and storing a lateral strap made of hook and loop material. As illustrated in FIGS. 12 and 14, lateral cartridge 134 a includes a compartment 276 a defined by a top wall 270 a, a bottom wall 272 a, a first side wall 274 a, a second side wall 275 a, a trailing end opening 277 a located proximal to trailing end 173 a and a leading end opening 278 a located proximal to leading end 171 a. Openings 277 a and 278 a provide access to lateral strap 132 a.

In particular, each lateral strap is stored in each lateral cartridge 134 a-d in a dual serpentine arrangement of hook and loop strap material (i.e., a dual arrangement of strap material folded over and onto itself) with the center of each lateral strap secured to the center of the top wall of each lateral cartridge 134 a-d so as to prevent the entirety of each lateral strap from exiting from each lateral cartridge 134 a-d. In this way, a first end of each lateral strap can exit out a leading end of each lateral cartridge and each second end of each lateral strap can exit out a trailing end of each lateral cartridge. For example, in FIGS. 12 and 14, lateral strap 132 a includes first end 286 a and second end 287 a with equal lengths of strap formed into first and second serpentine arrangements and the center of lateral strap 132 a secured to top wall 270 a using at least one fastener 285 a, such as one more rivets. In addition, each lateral strap located in each lateral cartridge 134 a-d includes finger hooks located at their ends. First end 286 a of strap 132 a includes a first end finger hook 288 a and second end 287 a of strap 132 a includes a second end finger hook 289 a. First end finger hook 288 a is secured to trailing end 173 a of lateral cartridge 134 a and second end finger hook 289 a is secured to leading end 171 a of lateral cartridge 134 a when lateral strap 132 a is not in use so as to prevent accidental or premature removal of both sides of the strap 132 a from cartridge 134 a.

As illustrated in FIG. 8, to insert and place lateral cartridges 134 a-d in main body 101 of spine board 100, the leading ends 171 a-d of lateral cartridges 134 a-d are inserted into channels 124 a-d, respectively, and are slid from second longitudinal side 112 of main body 101 to first longitudinal side 110 until leading ends 171 a-d reach first longitudinal side 110. As lateral cartridges 134 a-d reach their full insertion position, the spring or barbed clips on trailing ends 173 a-d will become compressed and as insertion is completed the spring or barbed clips will click into position, thereby indexing with main body 101 and holding cartridges 134 a-d in place. The spring or barbed clips prevent the lateral cartridges 134 a-d from being removed accidentally and additionally keep the lateral cartridges 134 a-d in position as straps are removed for use on the patient. Still further, the flanges, such as flanges 280 a, 281 a and 282 a (FIG. 13) provide a hard stop, which prevents cartridges 134 a-d from passing completely through main body 101 of board 100.

Each strap contained and stored in each lateral cartridge 134 a-d, such as strap 132 a, includes a first end that is pulled from the leading end 171 a-d and a second end that is pulled from the trailing end 173 a-d using the finger hooks on the first and second ends of the straps, such as finger hook 289 a located on second end 287 a of strap 132 a and finger hook 288 a located on first end 286 a of strap 132 a. The straps, made of hook and loop material, are wrapped around the patient and placed on top of themselves or each other to secure the patient's torso, waist and legs to the board. Although unnecessary, it is possible to further thread the straps through the handles by twisting the strap at the handle to allow for hook and loop surfaces to contact each other. All four straps in all four lateral cartridges 134 a-d should be utilized to securely fasten the patient to spine board 100. In regards to securing the longitudinal straps in longitudinal cartridges 129 a and 129 b, the longitudinal straps are brought over the shoulders of the patient, crossed and are attached via its hook and loop material to the lateral straps that were wrapped around the patient. In one embodiment, the load to the longitudinal straps will be divided across multiple lateral straps. If additional strength is required, then the longitudinal straps can be threaded through any of handles 116 to provide further strength.

For sanitation purposes, both longitudinal cartridges 129 a-b and lateral cartridges 134 a-dincluding the straps that they house are single use and are removed for replacement. Cartridges 129 a-b and 134 a-d are easily removed from main body 101 by grasping the spring or barbed clips, such as 183 b and 184 b and 283 a and 284 a, and squeezing them toward the center of the respective cartridge while pulling the respective cartridge from main body 101.

FIG. 15 is a perspective view of cervical collar 114. Cervical collar 114 is composed of different density polyethylene plastic materials based on function. Use of polymer-type materials will be apparent to one of skill in the art. A high density polyethylene provides structural strength when surrounding the cervical portion of the spine as well as provides strength for post 115, which is attached to the back of collar 114. A polyethylene foam provides a pad to the contact areas. An ice pack can also pad the contact areas and will provide a therapeutic cooling effect to the cervical area confined to collar 114 (if activated). Collar 114 stores in a low, flat profile and assumes a three-dimensional configuration when wrapped around the patients neck and secured with a pair of saw tooth straps and corresponding buckles. In addition, collar 114 and post 115 are radiolucent to allow x-rays to be taken without removal of the patient from the collar or the spine board. In another embodiment, collar 114 can contain phosphors for radiating visible light after being energized so as to be “glow-in-the-dark.” Collar 114 is designed to be slid under the arch of the subject's neck. It is secured to the patient using a saw tooth strap 111 and buckle 113 configuration and secured to main body 101 of board 100 using post 115 that has exterior facing grooves or indexing slots 109. It should be realized that other ways to secure collar to a patient's neck are possible. In another embodiment, cervical collar 114 has multiple distal contact points including, but not limited to contact points with the bilateral clavicles, bilateral trapezius muscles, the sternum, posterior soft tissues overlying the occiput and anteriorly the mandible and its soft tissue.

As previously discussed, cervical collar 114 contains at least two features: a chemically activated cold pack embedded within the collar that can be activated by medical personnel if the situation calls for it, and supporting post 115 that can be inserted into an opening 117 in main body 101 of board 100 and locked into place with collar stabilization key 136. FIG. 16 is a perspective view of collar stabilization key 136. Collar stabilization key 136 includes a leading end 160 and a trailing end 161. Trailing end 161 includes a flange 163 that is for engaging with main body 101 of board 100. Trailing end 161 also includes a pair of spring or barbed clips 164 and 165. Extending from leading end 161 and less than halfway to trailing end 161 is a passage 166 having interior facing sides with grooves or indexing slots 167 a and 167 b that face each other. Indexing slots 167 a and 167 b are for engaging with the grooves or indexing slots 109 on either side of the exterior facing surfaces of post 115. Providing post 115 with varying heights of indexing slots 109 and collar stabilization key 136 with varying heights of indexing slots 167 a and 167 b allow for the patient's head to be positioned above top surface 102 of board 100 should it be required.

FIG. 17 is a partial perspective view of a section of spine board 100 illustrating the insertion of and placement of collar stabilization key 136 in main body 101 of spine board 100. As illustrated, the leading end 160 of collar stabilization key 136 is inserted into a third longitudinal channel 122 c in the direction illustrated by the directional arrows. Third longitudinal channel 122 c includes a first end 144 c and a second end 146 c and is located between first and second longitudinal channels 122 a and 122 b. Second end 146 c intersects with first end 106 of main body 101. Collar stabilization key 136 is slid into third longitudinal channels 122 c in the direction illustrated by the directional arrow until leading end 160 reaches first end 144 c of channel 122 c where post 115 is inserted through an opening 117 in top surface 102 of main body 101. As collar stabilization key 136 reaches its full insertion position, the spring or barbed clips 164 and 165 on trailing end 161 will become compressed and as insertion is completed the spring or barbed clips 164 and 165 will click into position, thereby indexing with main body 101 and holding collar stabilization key 136 in place as well as post 115, which prevents any motion of the patient's neck (either lateral translation and rotation) during transportation. The spring or barbed clips also prevent collar stabilization key 136 from being removed accidentally. Collar stabilization key 136 can be easily removed from main body 101 by grasping spring or barbed clips 163 and 164 and squeezing them toward the center of collar stabilization key 136 while pulling the collar stabilization key 136 from longitudinal channel 122 c of main body 101.

FIGS. 18 and 19 are perspective views of another embodiment of a support article or spine board 200. FIGS. 20-25 are a top view, a bottom view, a right side view, a left side view, a back end view and a front end view of spine board 200 Like spine board 100, spine board 200 includes a main body 201 having a top surface 202, an opposing bottom surface 204, a first end 206, an opposing second end 208, a first longitudinal side 210 and an opposing second longitudinal side 212. The distance between top surface 202 and bottom surface 204 defines a thickness 227 (FIG. 24) of main body 201. Bottom surface 204, in the embodiment illustrated in FIGS. 18-25, is not flat, but has longitudinal ridges, which provide increased strength to board 200. The distance between first end 206 and second end 208 defines a length 223 (FIG. 20) of main body 201. The distance between first longitudinal side 210 and second longitudinal side 212 defines a width 225 (FIG. 24) of main body 201. First and second longitudinal sides 210 and 212 connect first and second ends 206 and 208. In one embodiment, spine board 200 is made of a light-weight synthetic material, durable enough to withstand years of use by medical personnel.

Handles 216 a-n are spaced apart from each other and are placed in locations adjacent to and along first end 206, second end 208, first longitudinal side 210 and second longitudinal side 212 to allow medical personnel to carry spine board 200. Along the mid-section of main body 201 of board 200, spine board 200 includes a recess 219 having undercut features on either longitudinal side of recess 219 for receiving a comfort pad 218 that protrudes slightly from top surface 202 of main body 201. Spine board 200 also includes an adjustable brace or cervical collar 214 mounted to main body 201 that also protrudes from top surface 202. Cervical collar 214 is fitted around a patient's neck and then fixed to board 200 prior to patient transport to prevent as much movement of the spine as possible. A collar stabilization key 236 (FIGS. 19, 21 and 24) is located internal to main body 201 of board 200 and is used to hold the cervical collar 214 in place and prevent motion of the head and neck in multiple directions. The embodiment of cervical collar 214 and collar stabilization key 236 will be discussed in more detail below.

FIG. 26 is a top perspective view of comfort pad 218 before it is mounted to spine board 200. FIGS. 27-29 are a top view, a side view and an end view of comfort pad 218. In one embodiment, comfort pad 218 includes a foam body 290 mounted to a backer 291 with, for example, an adhesive. Backer 291 includes a length 292 and a width 293 and foam body 290 includes a length 294 and a width 295. While length 292 of backer 291 and length 294 of foam body 290 are substantially the same, width 293 of backer 291 is greater than width 295 of foam body 290. In particular, backer 291 extends outwardly from either longitudinal side of foam body 290 so that a first longitudinal side 296 of backer 291 is spaced outwardly from a first longitudinal side 297 of foam body 290 and a second longitudinal side 298 of backer 291 is spaced outwardly from a second longitudinal side 299 of foam body 290. Foam body 290 may be constructed of polyethylene foam and backer 291 may be constructed of a corrugated cardboard. In other embodiments, comfort pad 218 may or may not contain chemically activated ice and is capable of reducing the potential for pressure ulcers that a patient might develop. For example, foam body 290 may include a mechanism to allow for ice packs to be placed down its center. However, it is also possible that foam body 290 is a continuous pad with no ice.

To attach comfort pad 218 to spine board 200, one extending section of backer 291 that extends outwardly from one of longitudinal sides 297 or 299 of foam body 290 is inserted first into one of the longitudinal undercut features of recess 219. Then the other extending section of backer 291 that extends outwardly from the other of longitudinal sides 297 or 299 of foam body 290 is inserted into the other of the longitudinal undercut features of recess 219.

Also incorporated into the board are a plurality of channels and a plurality of cartridges that are inserted in the channels and contain straps. The channels exist within main body 201 and are located interior to the outer surfaces of board 200 including between top surface 202 and bottom surface 204 and between first end 206 and second end 208 and between first longitudinal side 210 and second longitudinal side 212. The channels provide openings to receive the cartridges, which contain the straps that secure the patient to the board. The cartridges are single use units that are loaded and stored within the board and provide easy access to the straps when needed for treatment of the patient.

In one embodiment, there are two different types of channels that exist within main body 201 of board 200—a single longitudinal channel and a plurality of lateral channels. A single longitudinal channel 222 (FIG. 24) extends longitudinally along a portion of length 223 of spine board 200 and is located centrally to the spine board from a first end 246 (FIGS. 24 and 41) to a second end 245 (FIGS. 30 and 41). Longitudinal channel 222 is configured to receive collar stabilization key 236, which will be discussed in detail below. A plurality of lateral channels 224 a-f (FIGS. 22 and 23) extend laterally through width 225 of main body 201 from first longitudinal side 210 to second longitudinal side 212.

FIG. 30 is the perspective view of spine board 200 in FIG. 18 with main body 201 shown in phantom to illustrate internal components. Longitudinal channel 222 is located inside main body 201 between top surface 202 and bottom surface 204 and has second end 245, which is closed, and first end 246 (FIG. 24), which is open. Open first end 246 intersects with first end 206 of main body 201 and serves as the insertion opening into channel 222 for collar stabilization key 236.

Lateral channels 224 a, 224 b, 224 c, 224 d, 224 e and 224 f are oriented substantially perpendicular to longitudinal channel 222, but do not intersect longitudinal channel 222 since they are spaced away from longitudinal channel 222. Lateral channels 224 a-f are also located inside main body 201 between and spaced apart from top surface 202 and bottom surface 204.

Each channel 224 a-f has a length that is width 225 of main body 201, are spaced apart from each other along length 223 of main body 201 and have open first ends 226 a, 226 b, 226 c, 226 d, 226 e and 226 f (FIG. 22) that intersect with first longitudinal side 210 and open second ends 228 a, 228 b, 228 c, 228 d, 228 e and 228 f (FIG. 23) that intersect with second longitudinal side 212. Both open first ends 226 a-f and open second ends 228 a-f serve as exit ends for straps stored in cartridges 234 a-f.

As illustrated and as previously discussed, longitudinal channel 222 and lateral channels 224 a-f that exist within main body 201 of spine board 200 house and store removable cartridges. The removable cartridges that are housed within lateral channels 224 a-f have an oval clamshell shape and contain straps. Longitudinal channel 222 receives collar stabilization key 236, which may be thought of as a cartridge, but has a different shape that will be discussed below. Lateral channels 224 a-f receive and house lateral cartridges 234 a, 234 b, 234 c, 234 d, 234 e and 234 f having leading ends 271 a-f and trailing ends 273 a-f, respectively. Each cartridge 234 a-f contains and stores a strap used to secure the patient to main body 201 of board 200. The straps are made with hook and loop material for securing via attachment onto themselves. In particular, first ends of the straps stored in cartridges 234 b-f exit through first ends 226 b-f and second ends of the straps stored in cartridges 234 b-f exit through second ends 228 b-f. The straps are configured for wrapping around a patient and securing the patient's body to spine board 100 in a cross-body configuration. It should be pointed out that lateral cartridge 234 a contained in lateral channel 224 a is slightly different than other lateral cartridges 234 b-f. Lateral cartridge 234 a contains a shoulder strap and its ends exit from spine board 100 through holes 244 a and 244 b.

The trailing end of each channel 222, 224 a-f includes an aperture 235 a-g. Each aperture 235 a-g is located either adjacent to first end 206 of spine board 200 or adjacent to first longitudinal side 210 of spine board 200. Each aperture 235 a-g extends from the top surface 201 of spine board 200 and intersects with each channel 222, 224 a-f. In addition, a locking button 237 is located on the trailing end of each cartridge 234 a-f and 236. Each channel 222, 224 a-f includes a ramp feature 229 (FIG. 41) located at each of the trailing ends of the channels that allow for locking button 237 to become compressed during insertion. Then, button 237 releases into one of the apertures 235 a-g in top surface 201 of spine board 200. Depressing any of buttons 237 allows that particular cartridge 234 a-f or 236 to slide out of board 200.

Straps stored in lateral cartridges 234 a-f are allowed to freely slide within and are positioned in a dual serpentine arrangement of hook and loop strap material (i.e., a dual arrangement of strap material are folded over and onto itself) as are illustrated in the exemplary configurations in FIGS. 31 and 32. In FIG. 31, cartridge 234 a is illustrated and in FIG. 32, any of cartridges 234 b-f are illustrated. In this way, a first end of each lateral strap of lateral cartridges 234 b-f can exit out a leading end of each lateral cartridge 234 b-f and each second end of each lateral strap can exit out a trailing end of each lateral cartridge 234 b-f. Each end of the dual arrangement of strap material includes a finger hook 288. In regards to lateral cartridge 234 a, two through holes 244 a and 244 b (FIG. 18) are located centrally on board 200. Ends of a shoulder strap are allowed to be accessed from these “strap access cavities” 244 a and 244 b from lateral cartridge 234 a as positioned in lateral channel 224 a.

As illustrated in FIG. 30, to insert and place lateral cartridges 234 a-f in main body 201 of spine board 200, the leading ends 271 a-d of lateral cartridges 234 a-f are inserted into channels 224 a-f, respectively, and are slid from second longitudinal side 212 of main body 201 to first longitudinal side 210 until leading ends 271 a-d reach first longitudinal side 210 and locking buttons 237 release into place into apertures 235 a-g.

The straps, made of hook and loop material, are wrapped around the patient and placed on top of themselves or each other to secure the patient's torso, waist and legs to the board. Although unnecessary, it is possible to further thread the straps through the handles by twisting the strap at the handle to allow for hook and loop surfaces to contact each other. All six straps in all six lateral cartridges 234 a-f should be utilized to securely fasten the patient to spine board 200. In regards to lateral cartridge 234 a, the straps are brought over the shoulders of the patient, crossed and are attached via its hook and loop material to the lateral straps that were wrapped around the patient. For sanitation purposes, both longitudinal cartridges 224 a-f and lateral cartridges 234 a-f including the straps that they house are single use and are removed for replacement.

FIGS. 33 and 34 are top perspective and bottom perspective views, respectively, of cervical collar 214. FIG. 35 is a side view of the cervical collar of FIG. 33. FIG. 36 is an end view of the cervical collar of FIG. 33. Cervical collar 214 is composed of different density polyethylene plastic materials based on function. Use of polymer-type materials will be apparent to one of skill in the art. A high density polyethylene provides structural strength when surrounding the cervical portion of the spine as well as provides strength for post 215, which is attached to the back of collar 214. A polyethylene foam provides a pad to the contact areas. An ice pack can also pad the contact areas and will provide a therapeutic cooling effect to the cervical area confined to collar 214 (if activated). Collar 214 stores in a low, flat profile and assumes a three-dimensional configuration when wrapped around the patients neck and secured with a pair of saw tooth straps and corresponding buckles. In addition, collar 214 and post 215 may be radiolucent to allow x-rays to be taken without removal of the patient from the collar or the spine board. In another embodiment, collar 214 can contain phosphors for radiating visible light after being energized so as to be “glow-in-the-dark.” Collar 214 is designed to be slid under the arch of the subject's neck. It is secured to the patient using a saw tooth strap 211 and buckle 213 configuration and secured to main body 201 of board 200 using post 215. At a distal end of post 215 is a flange or circular disk 209. Flange 209 has a greater diameter than a diameter of post 215. It should be realized that other ways to secure collar to a patient's neck are possible. In another embodiment, cervical collar 214 has multiple distal contact points including, but not limited to contact points with the bilateral clavicles, bilateral trapezius muscles, the sternum, posterior soft tissues overlying the occiput and anteriorly the mandible and its soft tissue.

Post 215 and therefore flange 209 of cervical collar 214 can be inserted into an opening 217 (FIG. 21) in main body 201 of board 200 and locked into place with collar stabilization key 236. FIGS. 37 and 38 are top and bottom perspective views, respectively, of collar stabilization key 236. Collar stabilization key 236 includes a leading end 260 and a trailing end 261. Trailing end 261 includes button 237 (like the other cartridges) for releasing into aperture 235 a so that when collar stabilization key 236 is inserted into main body 201 of board 200, collar stabilization key 236 is engaged with main body 201 of board 200. Extending from leading end 260 and less than halfway to trailing end 261 is are a pair of forks 266 a and 266 b having interior facing sides. Upon placing post 215 and disk 209 through opening 217 in board 200, key 236 is slid into channel 222 and forks 266 a and 266 b are configured to capture post 215 between the bottom of the body of the collar and flange 209 to secure collar 214 in place. Such engagement is illustrated in the top and bottom perspective view illustrated in FIGS. 39 and 40. The space between the forks 266 a and 266 b of key 236 along with a small diameter post allows for latitude in positioning the patient's head on board 200.

FIG. 41 is a partial perspective view of a section of spine board 200 illustrating the insertion of and placement of collar stabilization key 236 in main body 201 of spine board 200. As illustrated, the leading end 260 of collar stabilization key 236 is inserted into channel 222 in the direction illustrated by the directional arrow until leading end 260 reaches first end 245 of channel 222 and forks 266 a and 266 b pass and engage with post 215, which is inserted through an opening 217 in main body 201. As collar stabilization key 236 reaches its full insertion position, button 237 will become compressed and as insertion is completed the button will release or click into position or into aperture 235 a, thereby holding collar stabilization key 236 in place as well as post 215, which prevents any motion of the patient's neck (either lateral translation and rotation) during transportation. Collar stabilization key 236 can be easily removed from main body 201 by depressing button 237 and pulling collar stabilization key 236 out of channel 222.

Although elements have been shown or described as separate embodiments above, portions of each embodiment may be combined with all or part of other embodiments described above.

Although the subject matter has been described in language specific to structural features and/or methodological acts, it is to be understood that the subject matter defined in the appended claims is not necessarily limited to the specific features or acts described above. Rather, the specific features and acts described above are disclosed as example forms of implementing the claims. 

1. A mechanism for securing a cervical collar to a spine board, the mechanism comprising: a collar stabilization key having a leading end and a trailing end, wherein the collar stabilization key is inserted into a longitudinal channel located within a main body of the spine board and having a first end that intersects with a first end of the main body and a second end, the leading end of the collar stabilization key mates with a post coupled to a cervical collar so as to secure the cervical collar to the main body of the spine board and the trailing end of the collar stabilization key locks the collar stabilization key in the longitudinal channel and to the main body.
 2. The mechanism of claim 1, wherein the collar stabilization key comprises a pair of forks having interior facing surfaces that face each other, the pair of forks extend from the leading end to a point along a length of the collar stabilization key and being configured to capture the post between the pair of forks to secure the cervical collar to the main body of the spine board.
 3. The mechanism of claim 1, wherein the post comprises a distal end having a flange that is greater in diameter than a diameter of the post, wherein the collar stabilization key mates with the post between the flange and the cervical collar.
 4. The mechanism of claim 1, wherein the collar stabilization key further comprises a button that is located on a top of the collar stabilization key and near the trailing end of the collar stabilization key, the button depresses during insertion of the collar stabilization key into the longitudinal channel and the button releases into an opening in the main body of the spine board to lock the collar stabilization key to the main body and for securing the cervical collar.
 5. The mechanism of claim 1, wherein the main body of the spine board comprises an opening that extends at least from a top surface of the spine board and intersects with the longitudinal channel, the post that is coupled to the cervical collar is placed through the opening so as to mate with the collar stabilization key.
 6. A spine board comprising: a main body comprising: a top surface and an opposing bottom surface; a first end and an opposing second end that define a length of the main body; a first longitudinal side and an opposing second longitudinal side that define a width of the main body, wherein the first and second longitudinal sides connect the first end to the second end; a longitudinal channel extending longitudinally within the main body having a first end that intersects with the first end of the main body and a second end; an opening that extends at least from the top surface of the main body and intersects with the longitudinal channel; a cervical collar having a post that extends outwardly from a bottom of the cervical collar, the post of the cervical collar being removably positioned in the opening; and a longitudinal cartridge removably secured in the channel and configured to capture and secure the post of the cervical collar to the main body of the spine board.
 7. The spine board of claim 6, wherein the longitudinal cartridge comprises a leading end and a trailing end, wherein when the longitudinal cartridge is loaded into the longitudinal channel and locked to the main body the leading end aligns with the opening in the main body and the trailing end aligns with the first end of the longitudinal channel.
 8. The spine board of claim 7, wherein the cartridge comprises a button that is located on a top of the cartridge and near the trailing end of the cartridge, the button depresses during insertion of the cartridge into the longitudinal channel and the button releases into an aperture in the main body to lock the cartridge to the main body to secure the cervical collar when the cartridge captures the post of the cervical collar.
 9. The spine board of claim 8, wherein the aperture is located adjacent the first end of the spine board, extends from the top surface of the main body and intersects with the longitudinal channel.
 10. The spine board of claim 6, wherein the longitudinal cartridge comprises a pair of forks having interior facing surfaces that face each other, the pair of forks extend from the leading end of the longitudinal cartridge to a point along a length of the longitudinal cartridge and being configured to capture the post between the pair of forks to secure the cervical collar to the main body of the spine board.
 11. The spine board of claim 6, wherein the post comprises a distal end having a flange that is greater in diameter than a diameter of the post, wherein the cartridge mates with the post between the flange and the cervical collar.
 12. The spine board of claim 6, further comprising a plurality of lateral channels extending laterally within the main body, wherein each first end of each lateral channel intersects with the first longitudinal side of the main body and each second end of each lateral channel intersects with the second longitudinal side of the main body.
 13. The spine board of claim 12, further comprising a plurality of lateral cartridges each containing a strap configured to secure a patient to the top surface of the spine board and each lateral cartridge being removably inserted and locked into one of the plurality of lateral channels, wherein the lateral cartridges each have a leading end that is located at the first end of the lateral channels and a trailing end that is located at the second ends of the lateral channels.
 14. The spine board of claim 13, wherein each lateral cartridge comprises a button that is located on a top of the lateral cartridge and near the trailing end of the lateral cartridge, the button depresses during insertion of the lateral cartridge into the lateral channel and the button releases into an aperture in the main body to lock the lateral cartridge to the main body.
 15. The spine board of claim 14, wherein the aperture is located adjacent the first longitudinal end of the spine board, extends from the top surface of the main body and intersects with the lateral channel.
 16. The spine board of claim 13, further comprising a pair of through holes centrally located on the spine board, extending from the top surface of the main body and intersecting with the lateral channel that is located closest to the opening in the main body for the cervical collar.
 17. The spine board of claim 16, wherein the lateral cartridge inserted into the lateral channel that intersects with the pair of through holes comprises a shoulder strap having ends that exit through the pair of through holes to secure shoulders of the patient.
 18. A method of securing a cervical collar to a spine board, the method comprising: inserting a collar stabilization key having a leading end and a trailing end into a longitudinal channel located within a main body of the spine board, the longitudinal channel having a first end that intersects with a first end of the main body and a second end; mating the leading end of the collar stabilization key with a post coupled to a cervical collar; and locking the collar stabilization key in the longitudinal channel and to the main body to secure the cervical collar to the main body of the spine board.
 19. The method of claim 18, wherein the locking the collar stabilization key further comprises depressing a button that is located on a top of the collar stabilization key and near the trailing end of the collar stabilization key during insertion of the collar stabilization key into the longitudinal channel and releasing the button into an opening in the main body.
 20. The mechanism of claim 18, placing the post that is coupled to the cervical collar through an opening that extends at least from a top surface of the spine board and intersects with the longitudinal channel so as to allow the collar stabilization key to mate with the cervical collar. 